Guirao Antonio, Cox Ian G, Williams David R
Laboratorio de Optica, Departamento de Física, Universidad de Murcia, Spain.
J Opt Soc Am A Opt Image Sci Vis. 2002 Jan;19(1):126-8. doi: 10.1364/josaa.19.000126.
The use of a correcting element to compensate for higher-order aberrations in an optical system often requires accurate alignment of the correcting element. This is not always possible, as in the case of a contact lens on the eye. We propose a method consisting of partial correction of every aberration term to minimize the average variance of the residual wave-front aberration produced by Gaussian decentrations (translations and rotations). Analytical expressions to estimate the fraction of every aberration term that should be corrected for a given amount of decentration are derived. To demonstrate the application of this method, three examples are used to compare performance with total and with partial correction. The partial correction is more robust and always yields some benefit regardless of the amount of decentration.
在光学系统中使用校正元件来补偿高阶像差通常需要精确对准校正元件。但这并非总是可行的,比如眼睛上佩戴隐形眼镜的情况。我们提出一种方法,该方法包括对每个像差项进行部分校正,以最小化由高斯偏心(平移和旋转)产生的残余波前像差的平均方差。推导了用于估计对于给定偏心量每个像差项应校正比例的解析表达式。为了演示该方法的应用,使用三个示例将性能与完全校正和部分校正进行比较。部分校正更稳健,并且无论偏心量大小总能带来一些益处。